Edible mushroom

White mushrooms. While common, they are just one of the many types of mushrooms cultivated and eaten.
Assorted picked edible mushrooms in a basket
Edible mushrooms on sale in Warsaw

Edible mushrooms are the fleshy and edible fruit bodies of several species of macrofungi (fungi which bear fruiting structures that are large enough to be seen with the naked eye). They can appear either below ground (hypogeous) or above ground (epigeous) where they may be picked by hand.[1] Edibility may be defined by criteria that include absence of poisonous effects on humans and desirable taste and aroma.[2][3]

Edible mushrooms are consumed for their nutritional value and they are occasionally consumed for their supposed medicinal value. Mushrooms consumed by those practicing folk medicine are known as medicinal mushrooms.[4] While hallucinogenic mushrooms (e.g. psilocybin mushrooms) are occasionally consumed for recreational or religious purposes, they can produce severe nausea and disorientation, and are therefore not commonly considered edible mushrooms.[5]

Edible mushrooms include many fungal species that are either harvested wild or cultivated. Easily cultivatable and common wild mushrooms are often available in markets, and those that are more difficult to obtain (such as the prized truffle and matsutake) may be collected on a smaller scale by private gatherers. Some preparations may render certain poisonous mushrooms fit for consumption.

Before assuming that any wild mushroom is edible, it should be identified. Accurate determination and proper identification of a species is the only safe way to ensure edibility, and the only safeguard against possible accident. Some mushrooms that are edible for most people can cause allergic reactions in some individuals, and old or improperly stored specimens can cause food poisoning. Great care should therefore be taken when eating any fungus for the first time, and only small quantities should be consumed in case of individual allergies. Deadly poisonous mushrooms that are frequently confused with edible mushrooms and responsible for many fatal poisonings include several species of the Amanita genus, in particular, Amanita phalloides, the death cap. It is therefore better to eat only a few, easily recognizable species, than to experiment indiscriminately. Moreover, even species of mushrooms that are normally edible may be dangerous, as mushrooms growing in polluted locations can accumulate pollutants such as heavy metals.[6]

History of mushroom use

Mycophagy /mˈkɑːfəi/, the act of consuming mushrooms, dates back to ancient times. Edible mushroom species have been found in association with 13,000-year-old archaeological sites in Chile, but the first reliable evidence of mushroom consumption dates to several hundred years BC in China. The Chinese value mushrooms for medicinal properties as well as for food. Ancient Romans and Greeks, particularly the upper classes, used mushrooms for culinary purposes.[5] Food tasters were employed by Roman emperors to ensure that mushrooms were safe to eat.[7]

Mushrooms are also easily preserved, and historically have provided additional nutrition over winter.

Many cultures around the world have either used or continue to use psilocybin mushrooms for spiritual purposes as well as medicinal mushrooms in folk medicine, although these are not considered "edible" mushrooms in the culinary sense.

Current culinary use

Commercially cultivated

Mushroom cultivation has a long history, with over twenty species commercially cultivated. Mushrooms are cultivated in at least 60 countries[8] with China, the United States, Netherlands, France and Poland being the top five producers in 2000.

A fraction of the many fungi consumed by humans are currently cultivated and sold commercially. Commercial cultivation is important ecologically, as there have been concerns of depletion of larger fungi such as chanterelles in Europe, possibly because the group has grown popular, yet remains a challenge to cultivate.

Commercially cultivated Japanese edible mushroom species. Clockwise from left, enokitake, buna-shimeji, bunapi-shimeji, king oyster mushroom and shiitake.

Commercially harvested wild edibles

Some species are difficult to cultivate; others (particularly mycorrhizal species) have not yet been successfully cultivated. Some of these species are harvested from the wild, and can be found in markets. When in season they can be purchased fresh, and many species are sold dried as well. The following species are commonly harvested from the wild:

Other edible wild species

Many wild species are consumed around the world. The species which can be identified "in the field" (without use of special chemistry or a microscope) and therefore safely eaten vary widely from country to country, even from region to region. This list is a sampling of lesser-known species that are reportedly edible.

Auricularia auricula-judae
Lactarius salmonicolor

Conditionally edible species

Amanita muscaria, a conditionally edible species

There are a number of fungi that are considered choice by some and toxic by others. In some cases, proper preparation can remove some or all of the toxins.

Nutrients

White mushrooms, raw
Nutritional value per 100 g (3.5 oz)
Energy 22 kJ (5.3 kcal)
3.3 g
0.3 g
3.1 g
Vitamins
Vitamin A equiv.
(0%)

0 μg

Thiamine (B1)
(7%)

0.08 mg

Riboflavin (B2)
(33%)

0.4 mg

Niacin (B3)
(24%)

3.6 mg

Pantothenic acid (B5)
(30%)

1.5 mg

Vitamin B6
(8%)

0.1 mg

Folate (B9)
(4%)

17 μg

Vitamin B12
(0%)

0 μg

Choline
(4%)

17.3 mg

Vitamin D
(1%)

7 IU

Vitamin E
(0%)

0 mg

Vitamin K
(0%)

0 μg

Minerals
Calcium
(0%)

3 mg

Iron
(4%)

0.5 mg

Magnesium
(3%)

9 mg

Manganese
(2%)

0.05 mg

Phosphorus
(12%)

86 mg

Potassium
(7%)

318 mg

Zinc
(5%)

0.52 mg

Other constituents
Water 92 g

Percentages are roughly approximated using US recommendations for adults.
White mushrooms, cooked, boiled, drained, without salt
Nutritional value per 100 g (3.5 oz)
Energy 117 kJ (28 kcal)
5.3 g
0.5 g
2.2 g
Vitamins
Vitamin A equiv.
(0%)

0 μg

Thiamine (B1)
(9%)

0.1 mg

Riboflavin (B2)
(25%)

0.3 mg

Niacin (B3)
(30%)

4.5 mg

Pantothenic acid (B5)
(44%)

2.2 mg

Vitamin B6
(8%)

0.1 mg

Folate (B9)
(5%)

18 μg

Vitamin B12
(0%)

0 μg

Choline
(4%)

19.9 mg

Vitamin D
(4%)

21 IU

Vitamin E
(0%)

0 mg

Vitamin K
(0%)

0 μg

Minerals
Calcium
(1%)

6 mg

Iron
(13%)

1.7 mg

Magnesium
(3%)

12 mg

Manganese
(5%)

0.1 mg

Phosphorus
(12%)

87 mg

Potassium
(8%)

356 mg

Zinc
(9%)

0.9 mg

Other constituents
Water 91.1 g

Percentages are roughly approximated using US recommendations for adults.

In 100 grams, raw white mushrooms provide 5 calories and are composed of 92% water, 3% carbohydrates, 3% protein and 0.3% fat (table). They contain high levels (20% of more of the Daily Value, DV) of riboflavin, niacin and pantothenic acid (24-33% DV), with lower moderate content of phosphorus (table). Otherwise, raw white mushrooms generally have low amounts of essential nutrients (table).

Although cooking (by boiling) lowers mushroom water content only 1%, the contents per 100 grams for several nutrients increase appreciably, especially for dietary minerals (table for boiled mushrooms).

The content of vitamin D is absent or low unless mushrooms are exposed to sunlight or purposely treated with artificial ultraviolet light (see below).

Vitamin D

Mushrooms exposed to ultraviolet (UV) light produce vitamin D2 before or after harvest by converting ergosterol, a chemical found in large concentrations in mushrooms, to vitamin D2.[13][14][15] This is similar to the reaction in humans, where vitamin D3 is synthesized after exposure to sunlight.

Testing showed an hour of UV light exposure before harvesting made a serving of mushrooms contain twice the U.S. Food and Drug Administration's daily recommendation of vitamin D, and 5 minutes of UV light exposure after harvesting made a serving of mushrooms contain four times the FDA's daily recommendation of vitamin D.[13] Analysis also demonstrated that natural sunlight produced vitamin D2.[14]

The ergocalciferol, vitamin D2, in UV-irradiated mushrooms is not the same form of vitamin D as is produced by UV-irradiation of human skin or animal skin, fur, or feathers (cholecalciferol, vitamin D3). Although vitamin D2 clearly has vitamin D activity in humans and is widely used in food fortification and in nutritional supplements, vitamin D3 is often used in dairy and cereal products.

Name Chemical composition Structure
Vitamin D1 ergocalciferol with lumisterol, 1:1[16]
Vitamin D2 ergocalciferol (made from ergosterol)
Vitamin D3 cholecalciferol (made from 7-Dehydrocholesterol in the skin).
The photochemistry of Vitamin D biosynthesis

Use in traditional medicine

Main article: Medicinal fungi

Medicinal mushrooms are mushrooms or extracts from mushrooms that are thought to be treatments for diseases, yet remain unconfirmed in mainstream science and medicine, and so are not approved as drugs or medical treatments.[17] Such use of mushrooms therefore falls into the domain of traditional medicine.

Preliminary research on mushroom extracts has been conducted to determine if anti-disease properties exist, such as for polysaccharide-K,[18] polysaccharide peptide,[19] or lentinan.[20] Some extracts have widespread use in Japan, Korea and China, as potential adjuvants to radiation treatments and chemotherapy.[21][22]

The concept of a medicinal mushroom has a history spanning millennia in parts of Asia, mainly as traditional Chinese medicine.[23]

Preparing edible mushrooms

A collection of dried mushrooms

Some wild species are toxic, or at least indigestible, when raw. As a rule all mushroom species should be cooked thoroughly before eating. Many species can be dried and re-hydrated by pouring boiling water over the dried mushrooms and letting them steep for approximately 30 minutes. The soaking liquid can be used for cooking as well, provided that any dirt at the bottom of the container is discarded.

Cell walls of mushrooms contain chitin, which is not easily digestible by humans. Cooking will help break down the chitin making cell contents and nutrients available. High speed blending can have a similar effect but will not degrade mild toxins and carcinogens which are present in some edible species. Accordingly, cooking mushrooms is the better method of preparing mushrooms for human consumption. [24] [25] [26] [27]

One recipe for Auricularia auricula-judae is to collect it while still soft, wash it thoroughly and cut it into thin slices. The prepared slices should be stewed in stock or milk for around three-quarters of an hour, and then served with plenty of pepper. The result is crispy and not unlike seaweed.[28]

The difficult task of identifying mushrooms in the wild, for culinary or recreational purposes, can result in severe poisoning, or death.[29][30]

Production

Mushroom and truffle output in 2011
Mushroom- and truffle-producing countries in 2011[31]
Country Output
tonnes long tons short tons % of world output
Albania 123 121 136 0.00160
Algeria 220 220 240 0.00286
Australia 49,696 48,911 54,780 0.646
Austria 1,600 1,600 1,800 0.0208
Azerbaijan 1,450 1,430 1,600 0.0188
Belarus 5,934 5,840 6,541 0.0771
Belgium 41,556 40,900 45,808 0.540
Bosnia and Herzegovina 994 978 1,096 0.0129
Brunei Darussalam 11 11 12 0.000143
Bulgaria 2,171 2,137 2,393 0.0282
Canada 78,930 77,680 87,010 1.03
People's Republic of China 5,008,850 4,929,740 5,521,310 65.1
Cyprus 730 720 800 0.00948
Czech Republic 361 355 398 0.00469
Denmark 10,304 10,141 11,358 0.134
Estonia 125 123 138 0.00162
Finland 1,668 1,642 1,839 0.0217
France 115,669 113,842 127,503 1.50
Germany 62,000 61,000 68,000 0.805
Greece 3,255 3,204 3,588 0.0423
Hungary 14,249 14,024 15,707 0.185
Iceland 583 574 643 0.00757
India 41,000 40,000 45,000 0.533
Indonesia 45,851 45,127 50,542 0.596
Iran 37,664 37,069 41,517 0.489
Ireland 67,063 66,004 73,924 0.871
Israel 10,001 9,843 11,024 0.130
Italy 761,858 749,826 839,805 9.90
Japan 60,180 59,230 66,340 0.782
Jordan 1,123 1,105 1,238 0.0146
Kazakhstan 558 549 615 0.00725
Kyrgyzstan 201 198 222 0.00261
Latvia 517 509 570 0.00672
Lithuania 13,008 12,803 14,339 0.169
Luxembourg 5 4.9 5.5 0.0000649
Madagascar 2,087 2,054 2,301 0.0271
Malta 947 932 1,044 0.0123
Moldova 475 467 524 0.00617
Mongolia 278 274 306 0.00361
Morocco 2,045 2,013 2,254 0.0266
Netherlands 304,000 299,000 335,000 3.95
New Zealand 9,884 9,728 10,895 0.128
North Korea 6,777 6,670 7,470 0.0880
Philippines 571 562 629 0.00742
Poland 198,235 195,104 218,517 2.57
Portugal 1,240 1,220 1,370 0.0161
Romania 7,661 7,540 8,445 0.0995
Russia 4,200 4,100 4,600 0.0546
Réunion 61 60 67 0.000792
Serbia 4,851 4,774 5,347 0.0630
Singapore 200 200 220 0.00260
Slovakia 1,898 1,868 2,092 0.0247
Slovenia 1,060 1,040 1,170 0.0138
South Africa 12,568 12,370 13,854 0.163
South Korea 30,574 30,091 33,702 0.397
Spain 127,000 125,000 140,000 1.65
Switzerland 8,465 8,331 9,331 0.110
Thailand 6,791 6,684 7,486 0.0882
Macedonia 2,784 2,740 3,069 0.0362
Tunisia 122 120 134 0.00158
Turkey 27,058 26,631 29,826 0.351
Ukraine 14,000 14,000 15,000 0.182
United Kingdom 69,300 68,200 76,400 0.900
United States 390,902 384,728 430,896 5.08
Uzbekistan 661 651 729 0.00859
Vietnam 21,957 21,610 24,203 0.285
Zimbabwe 613 603 676 0.00796
World 7,698,773 7,577,183 8,486,445 100

See also

References

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  4. Ejelonu, O.C; Akinmoladun, A.C; Elekofehinti, O.O; Olaleye, M.T. "antioxidant profile of four selected wild edible mushrooms in Nigeria". journal of chemical and pharmaceutical research 7: 286–245.
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  12. FDA IMPORT ALERT IA2502 Archived April 9, 2007, at the Wayback Machine.
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  14. 1 2 Koyyalamudi SR, Jeong SC, Song CH, Cho KY, Pang G (April 2009). "Vitamin D2 formation and bioavailability from Agaricus bisporus button mushrooms treated with ultraviolet irradiation". J Agric Food Chem 57 (8): 3351–5. doi:10.1021/jf803908q. PMID 19281276.
  15. Lee GS, Byun HS, Yoon KH, Lee JS, Choi KC, Jeung EB (March 2009). "Dietary calcium and vitamin D2 supplementation with enhanced Lentinula edodes improves osteoporosis-like symptoms and induces duodenal and renal active calcium transport gene expression in mice". Eur J Nutr 48 (2): 75–83. doi:10.1007/s00394-008-0763-2. PMID 19093162.
  16. Kalaras MD, Beelman RB, Holick MF, Elias RJ (2012). "Generation of potentially bioactive ergosterol-derived products following pulsed ultraviolet light exposure of mushrooms (Agaricus bisporus).". Food Chem 135 (2): 396–401. doi:10.1016/j.foodchem.2012.04.132. PMID 22868105.
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  20. http://www.mskcc.org/mskcc/html/69279.cfm
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  31. Food and Agriculture Organization of the United States

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